I want to know how can i solve the following minimization problem with matlab:

A is a semi-positive definite matrix. (All eigenvalues are greater or iqual than 0) F=F(x_1,...,x_n,y_1,y_2) = (F_1,...,F_2n) is a linear function.

i want to find (x_1,...,x_n,y_1,y_2) so that:

F*A*F' is minimum. There are no restriction in the variables, but notice that there are substantially less than the vector length.

I am trying to minicime a statistical distance. I can't find on the web what functions to use.

Thanks in advance.

  • 1
    Is this homework? What have you tried so far? Where are you stuck?
    – Schorsch
    Aug 27, 2013 at 19:48
  • No. It's not homework. And there is nothing to try. I was just asking if anyone new a matlab solver for my problem.
    – Manuel
    Aug 28, 2013 at 0:48

1 Answer 1


for unconstrained optimization in MATLAB you can use fminunc. To do so, you can define your cost function:

function z = costfun(x)
f = F*A*F';    % where F is a function of x=[x_1,...y_n]

then call fminunc to find the minimum. Vector x0 is provided as a starting point for searching.

[x,zval] = fminunc(@costfun,x0);
  • 1
    Thanks @ramino. It's an interesting function i wasn't aware of. Anyway I found a specific function for my problem. x = quadprog(H,f,A,b,Aeq,beq). The problem it can actually be formulated as a quadratic programming.
    – Manuel
    Aug 28, 2013 at 0:51

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